ad7472bru-reel7 Analog Devices, Inc., ad7472bru-reel7 Datasheet - Page 13

ad7472bru-reel7

Manufacturer Part Number

ad7472bru-reel7

Description

1.75 Msps, 4 Mw 10-bit /12-bit Parallel Adcs

Manufacturer

Analog Devices, Inc.

Datasheet

1.AD7472BRU-REEL7.pdf (20 pages)

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OPERATING MODES

The AD7470 and AD7472 have two possible modes of opera-

tion, depending on the state of the CONVST pulse at the end of

a conversion, Mode 1 and Mode 2. There is a continuous clock

on the CLKIN pin.

Mode 1 (High Speed Sampling)

In this mode of operation, the CONVST pulse is brought high

before the end of conversion i.e., before BUSY goes low (see

Figure 10). If the CONVST pin is brought from high to low

while BUSY is high, the conversion is restarted. When operat-

ing in this mode, a new conversion should not be initiated until

the acquisition time has elapsed after BUSY goes low. This

acquisition time allows the track-and-hold circuit to accurately

acquire the input signal. As mentioned earlier, a read should

not be done during a conversion. This mode facilitates the

fastest throughput times for the AD7470/AD7472.

Mode 2 (Sleep Mode)

Figure 13 shows AD7470/AD7472 in Mode 2 operation where

the ADC goes into sleep mode after conversion. The CONVST

line is brought low to initiate a conversion and remains low until

after the end of conversion. If CONVST goes high and low

again while BUSY is high, the conversion is restarted. Once the

BUSY line goes from a high to a low, the CONVST line has its

status checked and, if low, the part enters sleep mode.

The device wakes up again on the rising edge of the CONVST

signal. There is a wake-up time of typically 1 µs after the rising

edge of CONVST before the BUSY line can go high to indicate

start of conversion. BUSY will only go high once CONVST goes

low. The CONVST line can go from a high to a low during this

wake-up time, but the conversion will still not be initiated until

after the 1 µs wake-up time. Superior power performance can be

achieved in this mode of operation by waking up the AD7470

and AD7472 only to carry out a conversion.

Burst Mode

Burst mode on the AD7470/AD7472 is a subsection of Mode 1

and Mode 2; the clock is noncontinuous. Figure 12 shows how

the ADC works in burst mode for Mode 2. The clock needs to

be switched on only during conversion, a minimum of 12 clock

cycles for the AD7470 and 14 clock cycles for the AD7472.

Because the clock is off during nonconverting intervals, system

power is saved. The BUSY signal can be used to gate the CLKIN

pulses. The ADC does not begin the conversion process until

REV. B

CONVST

BUSY

DBx

CONVERT

Figure 13. Mode 2 Operation

–13–

the first CLKIN rising edge after BUSY goes high. The clock

needs to start less than two clock cycles away from the

CONVST active edge, otherwise INL deteriorates. For

example, if the clock frequency is 28 MHz, the clock must start

within 71.4 ns of CONVST going low. In Figure 12, the A/D

converter section is put into sleep mode once conversion is

completed. On the rising edge of CONVST, it is woken up

again. The user must be wary of the wake-up time because it

will reduce the sampling rate of the ADC.

The V

ers and is a separate supply from AV

of using a separate supply for the output drivers is that the user

can vary the output high voltage, V

the AD7470/AD7472. For example, if AV

a 5 V supply, the V

The ADC has better dynamic performance at 5 V than at 3 V,

so operating the part at 5 V, while still being able to interface to

3 V parts, pushes the AD7470/AD7472 to the top bracket of

high performance 10-bit/12-bit ADCs. Of course, the ADC can

have its V

ered from a 3 V or 5 V supply.

All outputs are powered from V

pins and the BUSY pin. The CONVST, CS, RD, and CLKIN

signals are related to the DV

POWER-UP

It is recommended that the user perform a dummy conversion

after power-up, because the first conversion result could be

incorrect. This also ensures that the part is in the correct mode

of operation. The recommended power-up sequence is as

follows:

1. GND

2. V

3. V

Power vs. Throughput

The two modes of operation for the AD7470 and AD7472 will

produce different power versus throughput performances,

Mode 1 and Mode 2; see Operating Modes section of the data

sheet for more detailed descriptions of these modes. Mode 2 is

the sleep mode of the part and it achieves the optimum power

performance.

DRIVE

pin is used as the voltage supply to the output driv-

WAKEUP

and DV

4. Digital Inputs

5. REF IN

6. V

DRIVE

pin can be powered from a 3 V supply.

pins connected together and be pow-

DRIVE

voltage.

AD7470/AD7472

. These are all the data out

, from the V

and DV

. The purpose

supply to

is using

ad7472bru-reel7 Analog Devices, Inc., ad7472bru-reel7 Datasheet - Page 13

ad7472bru-reel7

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